25898-97-9Relevant articles and documents
Hydrophosphination of Activated Alkenes by a Cobalt(I) Pincer Complex
Nolla-Saltiel, Roberto,Geer, Ana M.,Taylor, Laurence J.,Churchill, Olivia,Davies, E. Stephen,Lewis, William,Blake, Alexander J.,Kays, Deborah L.
supporting information, p. 3148 - 3157 (2020/06/08)
Herein we report the synthesis of three heteroleptic first-row transition metal(II) complexes containing carbazolido NNN pincer ligands and conversion to the corresponding metal(I)-carbonyl complexes via a reductive carbonylation route. These complexes are precatalysts for the hydrophosphination of activated alkenes, affording a cobalt-catalysed hydrophosphination process that solely and selectively yields the β addition (anti-Markovnikov) product. The scope of this transformation has been investigated using a variety of activated alkenes. Isolation and characterisation of substrate-coordinated intermediates reveal available coordination sites, which provide insight into the proposed catalytic cycle. (Figure presented.).
Direct C-OH/P(O)-H dehydration coupling forming phosphine oxides
Chen, Long,Zhu, Yueyue,Chen, Tieqiao,Liu, Long,Zhang, Ji-Shu,Han, Li-Biao
supporting information, p. 5090 - 5093 (2018/07/29)
A t-BuONa-mediated C-OH/P(O)-H cross dehydration coupling to produce alkylphosphine oxides is developed. This reaction employed readily available alcohols and P(O)-H compounds as the starting materials, providing an efficient alternative method for constructing sp3 C-P bonds. A reasonable reaction path involving dehydration and subsequent regio-selective hydrophosphorylation of the resulting alkenes was proposed.
Copper-catalyzed hydrophosphinations of styrenes in water at room temperature
Isley, Nicholas A.,Linstadt, Roscoe T. H.,Slack, Eric D.,Lipshutz, Bruce H.
, p. 13196 - 13200 (2014/11/08)
Copper-catalyzed hydrophosphinations of styrenyl systems in water, at room temperature is herein reported, enabled by our 'designer' surfactant TPGS-750-M. This is an attractive alternative to the more common Pd and Pt catalyzed versions.